Add to ORKGA combined experimental and detailed numerical study was conducted on the interaction between chemically inert solid particles and strained, atmospheric methane/air and propane/air laminar flames, both premixed and non-premixed. Experimentally, the opposed jet configuration was used with the addition of a particle seeder capable of operating in conditions of varying gravity. The particle seeding system was calibrated under both normal and micro gravity and a noticeable gravitational effect was observed. Flame extinction experiments were conducted at normal gravity by seeding inert particles at various number densities and sizes into the reacting gas phase. Experimental data were taken for 20 and 37 (mu) nickel alloy and 25 and 60 (mu) alumi...
In this study, we extended previous numerical and experimental investigations of an axisymmetric lam...
Fully understanding soot formation in flames is critical to the development of practical combustion ...
Under normal-gravity conditions the flame heat release produces both flow dilatation and buoyancy ef...
Reacting dusty flows have been studied to lesser extent than pure gas phase flows and sprays. Partic...
A detailed numerical study was conducted on the dynamics and thermal response of inert, spherical pa...
Propagation and extinction of gaseous premixed flames seeded with inert particles were analytically ...
Simulations of a laminar coflow methane/air diffusion flame at atmospheric pressure are conducted to...
The ability to predict the coupled effects of complex transport phenomena with detailed chemical kin...
In this thesis, constant volume combustion of dust mixtures of varying particle size was investigate...
Extinction of counterflow diffusion flames of air and methane diluted with nitrogen is studied by dr...
Experimental results of N2-diluted counterflow diffusion flames of CH4 and C3H8 vs. air with local e...
The absence of buoyancy-induced flows in microgravity (mu:g) and the resulting increase in the react...
Experimental results of Nz-diluted counterflow diffusion flames of CH4 and C3H8 vs. air with local e...
In the present work, two experimental approaches were carried out involving the combustion of suspen...
The study of combustible particle clouds is of fundamental scientific interest as well as a practica...
In this study, we extended previous numerical and experimental investigations of an axisymmetric lam...
Fully understanding soot formation in flames is critical to the development of practical combustion ...
Under normal-gravity conditions the flame heat release produces both flow dilatation and buoyancy ef...
Reacting dusty flows have been studied to lesser extent than pure gas phase flows and sprays. Partic...
A detailed numerical study was conducted on the dynamics and thermal response of inert, spherical pa...
Propagation and extinction of gaseous premixed flames seeded with inert particles were analytically ...
Simulations of a laminar coflow methane/air diffusion flame at atmospheric pressure are conducted to...
The ability to predict the coupled effects of complex transport phenomena with detailed chemical kin...
In this thesis, constant volume combustion of dust mixtures of varying particle size was investigate...
Extinction of counterflow diffusion flames of air and methane diluted with nitrogen is studied by dr...
Experimental results of N2-diluted counterflow diffusion flames of CH4 and C3H8 vs. air with local e...
The absence of buoyancy-induced flows in microgravity (mu:g) and the resulting increase in the react...
Experimental results of Nz-diluted counterflow diffusion flames of CH4 and C3H8 vs. air with local e...
In the present work, two experimental approaches were carried out involving the combustion of suspen...
The study of combustible particle clouds is of fundamental scientific interest as well as a practica...
In this study, we extended previous numerical and experimental investigations of an axisymmetric lam...
Fully understanding soot formation in flames is critical to the development of practical combustion ...
Under normal-gravity conditions the flame heat release produces both flow dilatation and buoyancy ef...